<%@page import="ChartDirector.*, java.util.*" %>
<%!
//
// Initialize the WebChartViewer when the page is first loaded
//
private void initViewer(WebChartViewer viewer)
{
    // The full x-axis range is from Jan 1, 2007 to Jan 1, 2012
    Date startDate = new GregorianCalendar(2010, 0, 1).getTime();
    Date endDate = new GregorianCalendar(2015, 0, 1).getTime();
    viewer.setFullRange("x", startDate, endDate);

    // Initialize the view port to show the last 366 days (out of 1826 days)
    viewer.setViewPortWidth(366.0 / 1826);
    viewer.setViewPortLeft(1 - viewer.getViewPortWidth());

    // Set the maximum zoom to 10 days (out of 1826 days)
    viewer.setZoomInWidthLimit(10.0 / 1826);
}

//
// Create a random table for demo purpose.
//
private RanTable getRandomTable()
{
    RanTable r = new RanTable(127, 4, 1828);
    r.setDateCol(0, new GregorianCalendar(2010, 0, 1).getTime(), 86400);
    r.setCol(1, 150, -10, 10);
    r.setCol(2, 200, -10, 10);
    r.setCol(3, 250, -8, 8);
    return r;
}

//
// Draw the chart
//
private void drawChart(WebChartViewer viewer)
{
    // Determine the visible x-axis range
    Date viewPortStartDate = Chart.NTime(viewer.getValueAtViewPort("x", viewer.getViewPortLeft()));
    Date viewPortEndDate = Chart.NTime(viewer.getValueAtViewPort("x", viewer.getViewPortLeft() +
        viewer.getViewPortWidth()));

    // We need to get the data within the visible x-axis range. In real code, this can be by using a
    // database query or some other means as specific to the application. In this demo, we just
    // generate a random data table, and then select the data within the table.
    RanTable r = getRandomTable();

    // Select the data for the visible date range viewPortStartDate to viewPortEndDate. It is
    // possible there is no data point at exactly viewPortStartDate or viewPortEndDate. In this
    // case, we also need the data points that are just outside the visible date range to "overdraw"
    // the line a little bit (the "overdrawn" part will be clipped to the plot area) In this demo,
    // we do this by adding a one day margin to the date range when selecting the data.
    r.selectDate(0, new Date(viewPortStartDate.getTime() - 86400000), new Date(
        viewPortEndDate.getTime() + 86400000));

    // The selected data from the random data table
    Date[] timeStamps = Chart.NTime(r.getCol(0));
    double[] dataSeriesA = r.getCol(1);
    double[] dataSeriesB = r.getCol(2);
    double[] dataSeriesC = r.getCol(3);

    //
    // Now we have obtained the data, we can plot the chart.
    //

    //================================================================================
    // Configure overall chart appearance.
    //================================================================================

    // Create an XYChart object 600 x 300 pixels in size, with pale blue (f0f0ff) background, black
    // (000000) rounded border, 1 pixel raised effect.
    XYChart c = new XYChart(600, 300, 0xf0f0ff, 0x000000);
    c.setRoundedFrame();

    // Set the plotarea at (52, 60) and of size 520 x 205 pixels. Use white (ffffff) background.
    // Enable both horizontal and vertical grids by setting their colors to grey (cccccc). Set
    // clipping mode to clip the data lines to the plot area.
    c.setPlotArea(55, 60, 520, 205, 0xffffff, -1, -1, 0xcccccc, 0xcccccc);

    // As the data can lie outside the plotarea in a zoomed chart, we need to enable clipping.
    c.setClipping();

    // Add a top title to the chart using 15pt Times New Roman Bold Italic font, with a light blue
    // (ccccff) background, black (000000) border, and a glass like raised effect.
    c.addTitle("Product Line International Market Price", "Times New Roman Bold Italic", 15
        ).setBackground(0xccccff, 0x000000, Chart.glassEffect());

    // Add a legend box at the top of the plot area with 9pt Arial Bold font with flow layout.
    c.addLegend(50, 33, false, "Arial Bold", 9).setBackground(Chart.Transparent, Chart.Transparent);

    // Set axes width to 2 pixels
    c.xAxis().setWidth(2);
    c.yAxis().setWidth(2);

    // Add a title to the y-axis
    c.yAxis().setTitle("Price (USD)", "Arial Bold", 10);

    //================================================================================
    // Add data to chart
    //================================================================================

    //
    // In this example, we represent the data by lines. You may modify the code below to use other
    // representations (areas, scatter plot, etc).
    //

    // Add a line layer for the lines, using a line width of 2 pixels
    LineLayer layer = c.addLineLayer2();
    layer.setLineWidth(2);

    // In this demo, we do not have too many data points. In real code, the chart may contain a lot
    // of data points when fully zoomed out - much more than the number of horizontal pixels in this
    // plot area. So it is a good idea to use fast line mode.
    layer.setFastLineMode();

    // Now we add the 3 data series to a line layer, using the color red (ff0000), green (00cc00)
    // and blue (0000ff)
    layer.setXData(timeStamps);
    layer.addDataSet(dataSeriesA, 0xff0000, "Product Alpha");
    layer.addDataSet(dataSeriesB, 0x00cc00, "Product Beta");
    layer.addDataSet(dataSeriesC, 0x0000ff, "Product Gamma");

    //================================================================================
    // Configure axis scale and labelling
    //================================================================================

    // Set the x-axis as a date/time axis with the scale according to the view port x range.
    viewer.syncDateAxisWithViewPort("x", c.xAxis());

    // In this demo, we rely on ChartDirector to auto-label the axis. We ask ChartDirector to ensure
    // the x-axis labels are at least 75 pixels apart to avoid too many labels.
    c.xAxis().setTickDensity(75);

    //================================================================================
    // Output the chart
    //================================================================================

    // Output the chart
    viewer.setChart(c, Chart.SVG);

    // Include tool tip for the chart
    viewer.setImageMap(c.getHTMLImageMap("", "",
        "title='[{dataSetName}] {x|mmm dd, yyyy}: USD {value|2}'"));
}
%>
<%

//
// This script handles both the full page request, as well as the subsequent partial updates (AJAX
// chart updates). We need to determine the type of request first before we processing it.
//

// Create the WebChartViewer object
WebChartViewer viewer = new WebChartViewer(request, "chart1");

if (viewer.isPartialUpdateRequest()) {
    // Is a partial update request. Draw the chart and perform a partial response.
    drawChart(viewer);
    out.clear();
    viewer.partialUpdateChart(response);
    return;
}

//
// If the code reaches here, it is a full page request.
//

// In this exapmle, we just need to initialize the WebChartViewer and draw the chart.
initViewer(viewer);
drawChart(viewer);
%>
<!DOCTYPE html>
<html>
<head>
    <title>Simple Zooming and Scrolling</title>
    <script type="text/javascript" src="cdjcv.js"></script>
</head>
<body style="margin:0px;">
<script type="text/javascript">

//
// Execute the following initialization code after the web page is loaded
//
JsChartViewer.addEventListener(window, 'load', function() {
    // Update the chart when the view port has changed (eg. when the user zooms in using the mouse)
    var viewer = JsChartViewer.get('<%=viewer.getId()%>');
    viewer.attachHandler("ViewPortChanged", viewer.partialUpdate);

    // Set the initial mouse usage to "scroll"
    viewer.setMouseUsage(JsChartViewer.Scroll);
    document.getElementById("scrollChart").checked = true;
});

</script>
<form method="post">
<table cellspacing="0" cellpadding="0" border="0">
    <tr>
        <td align="right" colspan="2" style="background:#000088">
            <div style="padding:0px 3px 2px 0px; font:italic bold 10pt Arial;">
                <a style="color:#FFFF00; text-decoration:none" href="http://www.advsofteng.com/">Advanced Software Engineering</a>
            </div>
        </td>
    </tr>
    <tr valign="top">
        <td style="width:127px; background:#c0c0ff; border-right:black 1px solid; border-bottom:black 1px solid;">
        <div style="font:9pt Verdana; padding:10px 0px 0px 3px; line-height:1.5; width:127px">
            <!-- The onclick handler of the following radio buttons sets the mouse usage mode. -->
            <input name="mouseUsage" id="scrollChart" type="radio"
                onclick="JsChartViewer.get('<%=viewer.getId()%>').setMouseUsage(JsChartViewer.Scroll)" />
            Drag To Scroll<br />
            <input name="mouseUsage" id="zoomInChart" type="radio"
                onclick="JsChartViewer.get('<%=viewer.getId()%>').setMouseUsage(JsChartViewer.ZoomIn)" />
            Zoom In<br />
            <input name="mouseUsage" id="zoomOutChart" type="radio"
                onclick="JsChartViewer.get('<%=viewer.getId()%>').setMouseUsage(JsChartViewer.ZoomOut)" />
            Zoom Out<br />
        </div>
        </td>
        <td>
            <div style="font-weight:bold; font-size:20pt; margin:5px 0px 0px 5px; font-family:Arial">
                Simple Zooming and Scrolling
            </div>
            <hr style="border:solid 1px #000080" />
            <div style="padding:0px 5px 5px 10px">
                <!-- ****** Here is the chart image ****** -->
                <%=viewer.renderHTML(response)%>
            </div>
        </td>
    </tr>
</table>
</form>
</body>
</html>
